Distributed Strain Analysis of a Quadrupolar Fiber-Optic Gyroscope Coil by Brillouin-OTDA and Rayleigh-OFDR

Hugo Boiron; Hugo Boiron; Jérémie Pillon; Jérémie Pillon; Emmanuelle Peter; Maxime Rattier; Emmanuel Marin; Adriana Morana; Matthieu Collignon; Sylvain Girard; Hervé C. Lefèvre

doi:10.1364/OFS.2022.Th4.15

27th International Conference on Optical Fiber Sensors
Technical Digest Series (Optica Publishing Group, 2022),
paper Th4.15
•https://doi.org/10.1364/OFS.2022.Th4.15

Distributed Strain Analysis of a Quadrupolar Fiber-Optic Gyroscope Coil by Brillouin-OTDA and Rayleigh-OFDR

Hugo Boiron, Jérémie Pillon, Emmanuelle Peter, Maxime Rattier, Emmanuel Marin, Adriana Morana, Matthieu Collignon, Sylvain Girard, and Hervé C. Lefèvre

Optical Fiber Sensors 2022

Alexandria, Virginia United States
29 August–2 September 2022
ISBN: 978-1-957171-14-2

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Joint Poster Session III (Th4)

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H. Boiron, J. Pillon, E. Peter, M. Rattier, E. Marin, A. Morana, M. Collignon, S. Girard, and H. C. Lefèvre, "Distributed Strain Analysis of a Quadrupolar Fiber-Optic Gyroscope Coil by Brillouin-OTDA and Rayleigh-OFDR," in 27th International Conference on Optical Fiber Sensors, Technical Digest Series (Optica Publishing Group, 2022), paper Th4.15.

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Abstract

Brillouin-Optical Time Domain Analysis and Rayleigh-Optical Frequency Domain Reflectometry, are exploited to improve the understanding of the longitudinal strain distribution along the optical fiber of a quadrupolar sensing coil of a fiber-optic gyroscope.

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